/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #ifndef TDENGINE_QAGGMAIN_H #define TDENGINE_QAGGMAIN_H #ifdef __cplusplus extern "C" { #endif #include "os.h" #include "tname.h" #include "taosdef.h" #include "trpc.h" #include "tvariant.h" #include "tsdb.h" #define TSDB_FUNC_INVALID_ID -1 #define TSDB_FUNC_COUNT 0 #define TSDB_FUNC_SUM 1 #define TSDB_FUNC_AVG 2 #define TSDB_FUNC_MIN 3 #define TSDB_FUNC_MAX 4 #define TSDB_FUNC_STDDEV 5 #define TSDB_FUNC_PERCT 6 #define TSDB_FUNC_APERCT 7 #define TSDB_FUNC_FIRST 8 #define TSDB_FUNC_LAST 9 #define TSDB_FUNC_LAST_ROW 10 #define TSDB_FUNC_TOP 11 #define TSDB_FUNC_BOTTOM 12 #define TSDB_FUNC_SPREAD 13 #define TSDB_FUNC_TWA 14 #define TSDB_FUNC_LEASTSQR 15 #define TSDB_FUNC_TS 16 #define TSDB_FUNC_TS_DUMMY 17 #define TSDB_FUNC_TAG_DUMMY 18 #define TSDB_FUNC_TS_COMP 19 #define TSDB_FUNC_TAG 20 #define TSDB_FUNC_PRJ 21 #define TSDB_FUNC_TAGPRJ 22 #define TSDB_FUNC_ARITHM 23 #define TSDB_FUNC_DIFF 24 #define TSDB_FUNC_FIRST_DST 25 #define TSDB_FUNC_LAST_DST 26 #define TSDB_FUNC_STDDEV_DST 27 #define TSDB_FUNC_INTERP 28 #define TSDB_FUNC_RATE 29 #define TSDB_FUNC_IRATE 30 #define TSDB_FUNC_SUM_RATE 31 #define TSDB_FUNC_SUM_IRATE 32 #define TSDB_FUNC_AVG_RATE 33 #define TSDB_FUNC_AVG_IRATE 34 #define TSDB_FUNC_TID_TAG 35 #define TSDB_FUNC_BLKINFO 36 #define TSDB_FUNC_HISTOGRAM 37 #define TSDB_FUNC_HLL 38 #define TSDB_FUNC_MODE 39 #define TSDB_FUNC_SAMPLE 40 #define TSDB_FUNC_CEIL 41 #define TSDB_FUNC_FLOOR 42 #define TSDB_FUNC_ROUND 43 #define TSDB_FUNC_MAVG 44 #define TSDB_FUNC_CSUM 45 #define TSDB_FUNCSTATE_SO 0x1u // single output #define TSDB_FUNCSTATE_MO 0x2u // dynamic number of output, not multinumber of output e.g., TOP/BOTTOM #define TSDB_FUNCSTATE_STREAM 0x4u // function avail for stream #define TSDB_FUNCSTATE_STABLE 0x8u // function avail for super table #define TSDB_FUNCSTATE_OF 0x10u // outer forward #define TSDB_FUNCSTATE_NEED_TS 0x20u // timestamp is required during query processing #define TSDB_FUNCSTATE_SELECTIVITY 0x40u // selectivity functions, can exists along with tag columns #define TSDB_BASE_FUNC_SO TSDB_FUNCSTATE_SO | TSDB_FUNCSTATE_STREAM | TSDB_FUNCSTATE_STABLE | TSDB_FUNCSTATE_OF #define TSDB_BASE_FUNC_MO TSDB_FUNCSTATE_MO | TSDB_FUNCSTATE_STREAM | TSDB_FUNCSTATE_STABLE | TSDB_FUNCSTATE_OF #define TSDB_FUNCTIONS_NAME_MAX_LENGTH 16 #define TSDB_AVG_FUNCTION_INTER_BUFFER_SIZE 50 #define DATA_SET_FLAG ',' // to denote the output area has data, not null value #define DATA_SET_FLAG_SIZE sizeof(DATA_SET_FLAG) #define QUERY_ASC_FORWARD_STEP 1 #define QUERY_DESC_FORWARD_STEP -1 #define GET_FORWARD_DIRECTION_FACTOR(ord) (((ord) == TSDB_ORDER_ASC) ? QUERY_ASC_FORWARD_STEP : QUERY_DESC_FORWARD_STEP) #define MAX_INTERVAL_TIME_WINDOW 1000000 // maximum allowed time windows in final results #define TOP_BOTTOM_QUERY_LIMIT 100 enum { MASTER_SCAN = 0x0u, REVERSE_SCAN = 0x1u, REPEAT_SCAN = 0x2u, //repeat scan belongs to the master scan MERGE_STAGE = 0x20u, }; #define QUERY_IS_STABLE_QUERY(type) (((type)&TSDB_QUERY_TYPE_STABLE_QUERY) != 0) #define QUERY_IS_JOIN_QUERY(type) (TSDB_QUERY_HAS_TYPE(type, TSDB_QUERY_TYPE_JOIN_QUERY)) #define QUERY_IS_PROJECTION_QUERY(type) (((type)&TSDB_QUERY_TYPE_PROJECTION_QUERY) != 0) #define QUERY_IS_FREE_RESOURCE(type) (((type)&TSDB_QUERY_TYPE_FREE_RESOURCE) != 0) typedef struct SArithmeticSupport { SExprInfo *pExprInfo; int32_t numOfCols; SColumnInfo *colList; void *exprList; // client side used int32_t offset; char** data; } SArithmeticSupport; typedef struct SQLPreAggVal { bool isSet; // statistics info set or not bool dataBlockLoaded; // data block is loaded or not SDataStatis statis; } SQLPreAggVal; typedef struct SInterpInfoDetail { TSKEY ts; // interp specified timestamp int8_t type; int8_t primaryCol; } SInterpInfoDetail; typedef struct SResultRowCellInfo { int8_t hasResult; // result generated, not NULL value bool initialized; // output buffer has been initialized bool complete; // query has completed uint32_t numOfRes; // num of output result in current buffer } SResultRowCellInfo; typedef struct SPoint1 { int64_t key; union{double val; char* ptr;}; } SPoint1; #define GET_ROWCELL_INTERBUF(_c) ((void*) ((char*)(_c) + sizeof(SResultRowCellInfo))) struct SQLFunctionCtx; /** * for selectivity query, the corresponding tag value is assigned if the data is qualified */ typedef struct SExtTagsInfo { int16_t tagsLen; // keep the tags data for top/bottom query result int16_t numOfTagCols; struct SQLFunctionCtx **pTagCtxList; } SExtTagsInfo; // sql function runtime context typedef struct SQLFunctionCtx { int32_t size; // number of rows void * pInput; // input data buffer uint32_t order; // asc|desc int16_t inputType; int16_t inputBytes; int16_t outputType; int16_t outputBytes; // size of results, determined by function and input column data type int32_t interBufBytes; // internal buffer size bool hasNull; // null value exist in current block bool requireNull; // require null in some function bool stableQuery; int16_t functionId; // function id char * pOutput; // final result output buffer, point to sdata->data uint8_t currentStage; // record current running step, default: 0 int64_t startTs; // timestamp range of current query when function is executed on a specific data block int32_t numOfParams; tVariant param[4]; // input parameter, e.g., top(k, 20), the number of results for top query is kept in param int64_t *ptsList; // corresponding timestamp array list void *ptsOutputBuf; // corresponding output buffer for timestamp of each result, e.g., top/bottom*/ SQLPreAggVal preAggVals; tVariant tag; SResultRowCellInfo *resultInfo; SExtTagsInfo tagInfo; SPoint1 start; SPoint1 end; } SQLFunctionCtx; typedef struct SAggFunctionInfo { char name[TSDB_FUNCTIONS_NAME_MAX_LENGTH]; uint8_t index; // index of function in aAggs int8_t stableFuncId; // transfer function for super table query uint16_t status; bool (*init)(SQLFunctionCtx *pCtx); // setup the execute environment void (*xFunction)(SQLFunctionCtx *pCtx); // blocks version function void (*xFunctionF)(SQLFunctionCtx *pCtx, int32_t position); // single-row function version, todo merge with blockwise function // finalizer must be called after all xFunction has been executed to generated final result. void (*xFinalize)(SQLFunctionCtx *pCtx); void (*mergeFunc)(SQLFunctionCtx *pCtx); int32_t (*dataReqFunc)(SQLFunctionCtx *pCtx, STimeWindow* w, int32_t colId); } SAggFunctionInfo; #define GET_RES_INFO(ctx) ((ctx)->resultInfo) int32_t getResultDataInfo(int32_t dataType, int32_t dataBytes, int32_t functionId, int32_t param, int16_t *type, int16_t *len, int32_t *interBytes, int16_t extLength, bool isSuperTable); int32_t isValidFunction(const char* name, int32_t len); #define IS_STREAM_QUERY_VALID(x) (((x)&TSDB_FUNCSTATE_STREAM) != 0) #define IS_MULTIOUTPUT(x) (((x)&TSDB_FUNCSTATE_MO) != 0) #define IS_SINGLEOUTPUT(x) (((x)&TSDB_FUNCSTATE_SO) != 0) #define IS_OUTER_FORWARD(x) (((x)&TSDB_FUNCSTATE_OF) != 0) // determine the real data need to calculated the result enum { BLK_DATA_NO_NEEDED = 0x0, BLK_DATA_STATIS_NEEDED = 0x1, BLK_DATA_ALL_NEEDED = 0x3, BLK_DATA_DISCARD = 0x4, // discard current data block since it is not qualified for filter }; typedef struct STwaInfo { int8_t hasResult; // flag to denote has value double dOutput; SPoint1 p; STimeWindow win; } STwaInfo; struct SBufferWriter; void blockDistInfoToBinary(STableBlockDist* pDist, struct SBufferWriter* bw); void blockDistInfoFromBinary(const char* data, int32_t len, STableBlockDist* pDist); /* global sql function array */ extern struct SAggFunctionInfo aAggs[]; extern int32_t functionCompatList[]; // compatible check array list bool topbot_datablock_filter(SQLFunctionCtx *pCtx, const char *minval, const char *maxval); /** * the numOfRes should be kept, since it may be used later * and allow the ResultInfo to be re initialized */ #define RESET_RESULT_INFO(_r) \ do { \ (_r)->initialized = false; \ } while (0) static FORCE_INLINE void initResultInfo(SResultRowCellInfo *pResInfo, int32_t bufLen) { pResInfo->initialized = true; // the this struct has been initialized flag pResInfo->complete = false; pResInfo->hasResult = false; pResInfo->numOfRes = 0; memset(GET_ROWCELL_INTERBUF(pResInfo), 0, bufLen); } #ifdef __cplusplus } #endif #endif // TDENGINE_QAGGMAIN_H